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I'm more of a hardware person, but the chip design tools I'm using require me to write some C++ code. I am not familiar with object-oriented programming; although I have a good handle on C. What I'm asking is for an explanation of how to structure my class (called cq) to accomplish the task at hand.

I would like to be able to generate a queue of a specified data type and specified size (which should not change after being generated). Ideally, this would be accomplished like this...

my_queue = new cq(uint8_t, 6);

...which would generate an array (or vector) of six 8-bit unsigned integers.

Then, I would like a method to both insert an element to an end and return the element at the head of the queue as follows.

uint8_t front;
front = my_queue.advance(28);

What kind of structure do I need to accomplish this? Do I need a template since the data types are variable? Or should I have a generic class and have a class for each data type inherit its structure?

Thank you!

Edit: using input from the answers below, I've come up with the following:

template <class type>
template <class size>
class CQ {

        // Allocates a queue with type and size
        // specified by template arguments.
        std::queue<type> cycle_queue(size, 0);

        // Inserts input to the end of the queue;
        // removes and returns the front element.
        type advance(type in){
            type out = cycle_queue.front();
            return out;


My question then becomes... how do I instantiate this in my main C++ program? I tried this, but it did not work:

CQ<uint8_t><6> my_queue;

Thanks again!

share|improve this question
up vote 1 down vote accepted

This looks like a perfect application for STL containers. You could write your own queue class (as a template class, since you want to be able to specify data type), but why re-invent the wheel?

You're looking probably for: std::list, for a FIFO queue. For your particular example:

std::list<uint8_t> my_queue;
my_queue.push_back(28);            // push an element
uint8_t front = my_queue.front();  // get the element on the front of the queue
my_queue.pop_front();              // and then pop it

If you're not already somewhat familiar with OOP and C++, writing your own template classes might be a bit out of reach for now. There are good references all over the 'net though if you want to try: e.g. http://www.cplusplus.com/doc/tutorial/templates/

share|improve this answer
This does seem very attractive; however, does this solution maintain a constant size of the queue? When I start, I do not want it to be empty. I want it to be always have the length I specify and initialized to zero. – Evan W Feb 2 '13 at 22:49
What happens, when you remove element from this container then? – Spook Feb 2 '13 at 22:49
@EvanW: so you want a fixed-size ringbuffer? – sheu Feb 2 '13 at 22:50
@sheu: not a ring, but fixed size, yes. – Evan W Feb 2 '13 at 22:57
@EvanW: STL doesn't have a fixed-sized queue container, so you'll have to roll your own then. – sheu Feb 2 '13 at 23:00

Consider using stl containers, like std::vector (here: http://www.cplusplus.com/reference/vector/vector/) or std::list (here: http://www.cplusplus.com/reference/list/list/). These collections already do what you want to achieve, your class would merely have to implement accessors to that collection.

The prototype would look like this:

std::vector Variable<uint8_t>;

Alternatively, you need to use Templates. A comprehensive explanation on what they are and how they work can be found here: http://www.cplusplus.com/doc/tutorial/templates/

In the essence, you would declare your object with


And in the constructor you would put:

template <class T>
cq::cq(int amount) {
    Buffer = new T[amount];

Please do not forget to deallocate the memory once you're done with it with 'free'.

share|improve this answer


#include <cstdio>
#include <queue>

int main(int argc, char * argv[])
    std::deque<int> myQueue;


    for (int i = 0; i < 3; i++)
        int j = myQueue.front();
        printf("%d ", j);


Edit: In response to comments

The easiest solution, that comes to my mind is:

while (myQueue.size > 6)

In fact, you can easily wrap this code in your own class, something like:

template <class T>
class SixItemsQueue
    std::deque<T> data;

    void Push(T value)
        while (data.size() > 6)

    T Pop()
        T result = data.front();
        return result;
share|improve this answer
This does seem very attractive; however, does this solution maintain a constant size of the queue? When I start, I do not want it to be empty. I want it to be always have the length I specify and initialized to zero. – Evan W Feb 2 '13 at 22:49
Why do you want it to be of constant size? The std::deque is implemented in such way to be as efficient in adding and removing elements as possible. – Spook Feb 2 '13 at 22:52
I need this queue to store inputs so that I can compare the output of the circuit to be tested with inputs from a previous cycle. For instance, if my circuit took in inputs and generated a valid input 6 cycles later, I would need a queue of length 6 to store the inputs for the last six cycles. When the element is dequeued, I can then compare it with the output since I know it was my input six cycles ago. – Evan W Feb 2 '13 at 22:55
thank you for showing me how to wrap this into a class; however, I'm wondering if it's possible to have a class that would work with any data type and any specified queue size. – Evan W Feb 2 '13 at 23:48
Sure, I modified the code to suit your needs. – Spook Feb 3 '13 at 9:16

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